Replacement of Lysine by Arginine, Phenylalanine and Tryptophan in the Reactive Site of the Bovine Trypsin‐Kallikrein Inhibitor (Kunitz) and Change of the Inhibitory Properties

Abstract

The reactive-site sequence of a proteinase inhibitor can be written as…-P₃-P₂-P₁-P₁′-P₂′-P₃′-…, where -P₁-P₁′- denotes the reactive site. Three semisynthetic homologues have been synthesized of the bovine trypsin-kallikrein® inhibitor (Kunitz) with either arginine, phenylalanine or tryptophan in place of the reactive-site residue P₁, lysine-15. These homologues correspond to gene products after mutation of the lysine 15 DNA codon to an arginine, phenylalanine or tryptophan DNA codon. Starting from native (virgin) inhibitor, reactive-site hydrolyzed, still active (modified) inhibitor was prepared by chemical and enzymic reactions. Modified inhibitor was then converted into inactive des-Lys¹⁵-inhibitor by reaction with carboxypeptidase B. Inactive des-Lys¹⁵ -inhibitor was reactivated by enzymic replacement of the P₁ residue according to Leary and Laskowski, Jr. The introduction of arginine was catalyzed by an inverse reaction with carboxypeptidase B, while phenylalanine or tryptophan were replaced by carboxypeptidase A. The reactivated semisynthetic inhibitors were trapped by complex formation with either trypsin or chymotrypsin. The enzyme inhibitor complexes were subjected to kinetic-control dissociation, and the semisynthetic virgin inhibitors were isolated. The inhibitory properties of the semisynthetic inhibitors have been investigated against bovine trypsin and chymotrypsin and against porcine pancreatic kallikreina and plasmin. The homologues with either lysine or arginine in the P₁ position are equally good inhibitors of trypsin, plasmin and kallikrein. The Arg¹⁵-homologue is a slightly more effective kallikrein inhibitor than the Lys¹⁵-inhibitor. The semisynthetic phenylalanine and tryptophan homologues, however, are weak inhibitors of trypsin and still weaker inhibitors of kallikrein, but are excellent inhibitors of chymotrypsin. Their association constant with chymotrypsin is at least ten times higher than that of native Lys¹⁵-inhibitor. A dramatic specificity change is observed with the phenylalanine and tryptophan homologues, which in contrast to the native inhibitor do not at all inhibit porcine plasmin. Thus, the nature of the P₁ residue strongly influences the primary inhibitory specificity of the bovine inhibitor (Kunitz).